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6 - ELECTRICAL CONNECTION
Please refer to the certified dimensional drawings, supplied
with the unit.
6.1 - Power supply
The power supply must meet the specification on the unit's
nameplate.
The supply voltage must be within the range specified in the
electrical data table.
For connections, refer to the wiring diagrams and certified
dimensional drawings.
WARNING:
Operation of the unit with an incorrect supply voltage or
excessive phase imbalance constitutes misuse which will
invalidate the manufacturer's warranty. If the phase imbalance
exceeds 2% for voltage, or 10% for current, contact your local
electricity supplier at once and ensure that the unit is not
switched on until corrective measures have been taken.
After the unit has been started up, the power supply must only
be disconnected for quick maintenance operations (one day
maximum). For longer maintenance operations or when the unit
is placed in storage (for example, during winter when the unit
does not need to generate cooling) the power supply of the unit
must be maintained permanently
6.2 - Voltage phase imbalance (%)
100 x max. deviation from average voltage
Average voltage
Example:
On a 400 V - 3 ph - 50 Hz supply, the individual phase voltages
were measured with the following values:
AB = 406 V; BC = 399 V; AC = 394 V
Average voltage = (406 + 399 + 394)/3
=
1199/3
= 399.7 (rounded up to 400 V)
Calculate the maximum deviation from the 400 V average:
(AB) = 406 - 400 = 6
(BC) = 400 - 399 = 1
(CA) = 400 - 394 = 6
The maximum deviation from the average is 6 V. The greatest
percentage deviation is: 100 x 6/400 = 1.5 %
This is less than the permissible 2% and therefore acceptable.
6.3 - Recommended wire sections
Wire sizing is the responsibility of the installer, and depends
on the characteristics and regulations applicable to each
installation site. The following is only to be used as a guideline,
and does not engage the manufacturer's liability.
After wire sizing has been completed, using the certified
dimensional drawing, the installer must verify the appropriate
means of connection and define any modifications necessary
on site.
The connections provided as standard for the customer-
supplied power supply cables are designed for the number and
type of wires listed in the table below.
The calculations of favourable and unfavourable cases are
performed by using the maximum current possible for each
unit fitted with a hydraulic module (see the tables of electrical
data for the unit and the hydraulic module).
The study includes the standardised installation cases according
to IEC 60364: cables with PVC (70°C) or XLPE (90°C)
insulation with copper core; routing in accordance with table
52C of the standard.
The maximum length mentioned is calculated to limit the
voltage drop to 5 %.
IMPORTANT:
Before connecting the main power cables (L1 - L2 - L3),
always check 3 phases are in the correct order (clockwise)
before proceeding to the connection on the main disconnect
switch.
Motor
Table of minimum and maximum cable sections (per phase) for connection to the units
Max. connectable section
(1)
Calculation of favourable case:
- Suspended overhead line (standardised routing
no. 17)
- Cable with XLPE insulation
Calculation of unfavourable case:
- Conductors in ducts or multi-conductor cables in
closed conduits (standardised routing no. 41)
- Cable with PVC insulation, if possible
30RBM/30RBP
Standard
lug
Narrow lug Recommended
max lug width
Section
(2)
Max length for a
voltage drop < 5%
Cable type
(3)
Section
(2)
Max length for a
voltage drop < 5%
Cable type
(3)
mm²
(per phase)
mm²
(per phase)
mm
mm²
(per phase)
m
-
mm²
(per phase)
m
-
160
2x70
2x95
21
1 x 50
180
XLPE Copper 2 x 50
350
PVC Copper
180
2x70
2x95
21
1 x 50
170
XLPE Copper 2 x 50
320
PVC Copper
200
2x70
2x95
21
1 x 70
205
XLPE Copper
2 x 70
380
PVC Copper
220
2x70
2x95
21
1 x 70
190
XLPE Copper
2 x 70
350
PVC Copper
260
2x70
2x95
21
2 x 50
220
XLPE Copper
2 x 70
300
XLPE Copper
300
2x70
2x95
21
2 x 50
200
XLPE Copper
2 x 70
270
XLPE Copper
330
2x95
2x185
24,5
2 x 70
240
XLPE Copper
2 x 95
310
XLPE Copper
360
2x95
2x185
24,5
2 x 70
220
XLPE Copper
2 x 95
280
XLPE Copper
400
2x95
2x185
24,5
2 x 70
200
XLPE Copper 2 x 120
310
XLPE Copper
430
2x95
2x185
24,5
2 x 95
240
XLPE Copper 2 x 150
340
XLPE Copper
470
2x240
2x240
37
2 x 95
220
XLPE Copper 2 x 150
320
XLPE Copper
520
2x240
2x240
37
2 x 120
240
XLPE Copper 2 x 185
330
XLPE Copper
NOTES:
(1) Connection capacities actually available for each machine. These are defined according to the connection terminal size, the electrical box access opening dimensions and the available space inside
the electrical box.
(2) Selection simulation result considering the hypotheses indicated.
(3) If the maximum calculated section is for an XLPE cable type, this means that a selection based on a PVC cable type can exceed the connection capacity actually available. Special attention must be
given to selection.
The protection against direct contact at the electrical connection point is compatible with the addition of fanout cables. The installer must determine whether these are necessary based on the cable
sizing calculation.
Содержание 30RBM 160
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